Isothermal Assembly works by combining a cocktail of exonuclease, polymerase, and ligase to fuse dsDNA fragments with sufficiently (20-120 bp) homologous ends. It leaves no "scar" behind, i.e. you can expect your product to contain the EXACT overlap sequence. The reaction may work with shorter ends (e.g. 15 bp), so long as the annealing temperature is higher than 50C.

Isothermal Assembly works by combining a cocktail of exonuclease, polymerase, and ligase to fuse dsDNA fragments with sufficiently (20-120 bp) homologous ends. It leaves no "scar" behind, i.e. you can expect your product to contain the EXACT overlap sequence. The reaction may work with shorter ends (e.g. 15 bp), so long as the annealing temperature is higher than 50C.

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Isothermal assembly reactions are stored in the common -20C freezer as 15 ul aliquots (in a 50 ml Falcon tube).

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Isothermal assembly reactions are stored in the common -20C freezer as 15 ul aliquots (in a labeled box).

To perform isothermal assembly:

To perform isothermal assembly:

Current revision

Isothermal Assembly

Isothermal Assembly works by combining a cocktail of exonuclease, polymerase, and ligase to fuse dsDNA fragments with sufficiently (20-120 bp) homologous ends. It leaves no "scar" behind, i.e. you can expect your product to contain the EXACT overlap sequence. The reaction may work with shorter ends (e.g. 15 bp), so long as the annealing temperature is higher than 50C.

Isothermal assembly reactions are stored in the common -20C freezer as 15 ul aliquots (in a labeled box).